Effects of low-intensity pulsed focal ultrasound-mediated delivery of endothelial progenitor-derived exosomes in tMCAo stroke

Ahmet Alptekin; Mohammad B Khan; Mahrima Parvin; Hasanul Chowdhury; Sawaiz Kashif; Fowzia A Selina; Anika Bushra; Justin Kelleher; Santu Ghosh; Dylan Williams; Emily Blumling; Roxan Ara; Asamoah Bosomtwi; Joseph A Frank; Krishnan M Dhandapani; Ali S Arbab

doi:10.3389/fneur.2025.1543133

Effects of low-intensity pulsed focal ultrasound-mediated delivery of endothelial progenitor-derived exosomes in tMCAo stroke

Ahmet Alptekin
, Mohammad B Khan
, Mahrima Parvin
, Hasanul Chowdhury
, Sawaiz Kashif
, Fowzia A Selina
, Anika Bushra
, Justin Kelleher
, Santu Ghosh
, Dylan Williams
, Emily Blumling
, Roxan Ara
, Asamoah Bosomtwi
, Joseph A Frank
, Krishnan M Dhandapani
, Ali S Arbab

Research output: Contribution to journal › Article › peer-review

Abstract

INTRODUCTION: Exosomes from different sources have been used for therapeutic purposes to target stroke and other disorders. However, exosomes from endothelial progenitor cells (EPCs) have not been tested in any stroke model, and in vivo bio-distribution study is lacking. Targeted delivery of IV-administered exosomes has been a significant challenge. Delivery of exosomes to the brain is a daunting task, and a blood-brain barrier (BBB)-penetrable peptide is being considered. However, the next step in practical treatment will be delivering naïve (unmodified) exosomes to the stroke site without destroying host tissues or disrupting BBB, or the membranes of the delivery vehicles. Low-intensity-pulsed focused ultrasound (LIPFUS) is approved for clinical use in the musculoskeletal, transcranial brain, and physiotherapy clinics. The objectives of the proposed studies were to determine whether LIPFUS-mediated increased delivery of EPC-derived exosomes enhances stroke recovery and functional improvement in mice with transient middle cerebral artery occlusion (tMCAo) stroke.

METHODS: To enhance exosome delivery to the stroke area, we utilized LIPFUS. We evaluated stroke volume using MRI at different time points and conducted behavioral studies parallel to MRI to determine recovery. Ultimately, we studied brain tissue using immunohistochemistry to assess the extent of stroke and tissue regeneration.

RESULTS AND DISCUSSION: In vivo, imaging showed a higher accumulation of EPC exosomes following LIPFUS without any damage to the underlying brain tissues, increased leakage of albumin, or accumulation of CD45+ cells. Groups of mice (14-16 months old) were treated with Vehicle (PBS), LIPFUS only, EPC-exosomes only, and LIPFUS+EPC-exosomes. LIPFUS + EPC exosomes groups showed a significantly decreased stroke volume on day 7, decreased FluoroJade+ cells, and significantly higher numbers of neovascularization in and around the stroke areas compared to that of other groups.

Original language	English (US)
Pages (from-to)	1543133
Journal	Frontiers in Neurology
Volume	16
DOIs	https://doi.org/10.3389/fneur.2025.1543133
State	Published - 2025

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Alptekin, A., Khan, M. B., Parvin, M., Chowdhury, H., Kashif, S., Selina, F. A., Bushra, A., Kelleher, J., Ghosh, S., Williams, D., Blumling, E., Ara, R., Bosomtwi, A., Frank, J. A., Dhandapani, K. M., & Arbab, A. S. (2025). Effects of low-intensity pulsed focal ultrasound-mediated delivery of endothelial progenitor-derived exosomes in tMCAo stroke. Frontiers in Neurology, 16, 1543133. https://doi.org/10.3389/fneur.2025.1543133

Alptekin, A, Khan, MB, Parvin, M, Chowdhury, H, Kashif, S, Selina, FA, Bushra, A, Kelleher, J, Ghosh, S, Williams, D, Blumling, E, Ara, R, Bosomtwi, A, Frank, JA, Dhandapani, KM & Arbab, AS 2025, 'Effects of low-intensity pulsed focal ultrasound-mediated delivery of endothelial progenitor-derived exosomes in tMCAo stroke', Frontiers in Neurology, vol. 16, pp. 1543133. https://doi.org/10.3389/fneur.2025.1543133

@article{a548a47c96a645a785715061a6e66c35,

title = "Effects of low-intensity pulsed focal ultrasound-mediated delivery of endothelial progenitor-derived exosomes in tMCAo stroke",

abstract = "INTRODUCTION: Exosomes from different sources have been used for therapeutic purposes to target stroke and other disorders. However, exosomes from endothelial progenitor cells (EPCs) have not been tested in any stroke model, and in vivo bio-distribution study is lacking. Targeted delivery of IV-administered exosomes has been a significant challenge. Delivery of exosomes to the brain is a daunting task, and a blood-brain barrier (BBB)-penetrable peptide is being considered. However, the next step in practical treatment will be delivering na{\"i}ve (unmodified) exosomes to the stroke site without destroying host tissues or disrupting BBB, or the membranes of the delivery vehicles. Low-intensity-pulsed focused ultrasound (LIPFUS) is approved for clinical use in the musculoskeletal, transcranial brain, and physiotherapy clinics. The objectives of the proposed studies were to determine whether LIPFUS-mediated increased delivery of EPC-derived exosomes enhances stroke recovery and functional improvement in mice with transient middle cerebral artery occlusion (tMCAo) stroke.METHODS: To enhance exosome delivery to the stroke area, we utilized LIPFUS. We evaluated stroke volume using MRI at different time points and conducted behavioral studies parallel to MRI to determine recovery. Ultimately, we studied brain tissue using immunohistochemistry to assess the extent of stroke and tissue regeneration.RESULTS AND DISCUSSION: In vivo, imaging showed a higher accumulation of EPC exosomes following LIPFUS without any damage to the underlying brain tissues, increased leakage of albumin, or accumulation of CD45+ cells. Groups of mice (14-16 months old) were treated with Vehicle (PBS), LIPFUS only, EPC-exosomes only, and LIPFUS+EPC-exosomes. LIPFUS + EPC exosomes groups showed a significantly decreased stroke volume on day 7, decreased FluoroJade+ cells, and significantly higher numbers of neovascularization in and around the stroke areas compared to that of other groups.",

author = "Ahmet Alptekin and Khan, \{Mohammad B\} and Mahrima Parvin and Hasanul Chowdhury and Sawaiz Kashif and Selina, \{Fowzia A\} and Anika Bushra and Justin Kelleher and Santu Ghosh and Dylan Williams and Emily Blumling and Roxan Ara and Asamoah Bosomtwi and Frank, \{Joseph A\} and Dhandapani, \{Krishnan M\} and Arbab, \{Ali S\}",

note = "Copyright {\textcopyright} 2025 Alptekin, Khan, Parvin, Chowdhury, Kashif, Selina, Bushra, Kelleher, Ghosh, Williams, Blumling, Ara, Bosomtwi, Frank, Dhandapani and Arbab.",

year = "2025",

doi = "10.3389/fneur.2025.1543133",

language = "English (US)",

volume = "16",

pages = "1543133",

journal = "Frontiers in Neurology",

issn = "1664-2295",

publisher = "Frontiers Media SA",

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TY - JOUR

T1 - Effects of low-intensity pulsed focal ultrasound-mediated delivery of endothelial progenitor-derived exosomes in tMCAo stroke

AU - Alptekin, Ahmet

AU - Khan, Mohammad B

AU - Parvin, Mahrima

AU - Chowdhury, Hasanul

AU - Kashif, Sawaiz

AU - Selina, Fowzia A

AU - Bushra, Anika

AU - Kelleher, Justin

AU - Ghosh, Santu

AU - Williams, Dylan

AU - Blumling, Emily

AU - Ara, Roxan

AU - Bosomtwi, Asamoah

AU - Frank, Joseph A

AU - Dhandapani, Krishnan M

AU - Arbab, Ali S

PY - 2025

Y1 - 2025

N2 - INTRODUCTION: Exosomes from different sources have been used for therapeutic purposes to target stroke and other disorders. However, exosomes from endothelial progenitor cells (EPCs) have not been tested in any stroke model, and in vivo bio-distribution study is lacking. Targeted delivery of IV-administered exosomes has been a significant challenge. Delivery of exosomes to the brain is a daunting task, and a blood-brain barrier (BBB)-penetrable peptide is being considered. However, the next step in practical treatment will be delivering naïve (unmodified) exosomes to the stroke site without destroying host tissues or disrupting BBB, or the membranes of the delivery vehicles. Low-intensity-pulsed focused ultrasound (LIPFUS) is approved for clinical use in the musculoskeletal, transcranial brain, and physiotherapy clinics. The objectives of the proposed studies were to determine whether LIPFUS-mediated increased delivery of EPC-derived exosomes enhances stroke recovery and functional improvement in mice with transient middle cerebral artery occlusion (tMCAo) stroke.METHODS: To enhance exosome delivery to the stroke area, we utilized LIPFUS. We evaluated stroke volume using MRI at different time points and conducted behavioral studies parallel to MRI to determine recovery. Ultimately, we studied brain tissue using immunohistochemistry to assess the extent of stroke and tissue regeneration.RESULTS AND DISCUSSION: In vivo, imaging showed a higher accumulation of EPC exosomes following LIPFUS without any damage to the underlying brain tissues, increased leakage of albumin, or accumulation of CD45+ cells. Groups of mice (14-16 months old) were treated with Vehicle (PBS), LIPFUS only, EPC-exosomes only, and LIPFUS+EPC-exosomes. LIPFUS + EPC exosomes groups showed a significantly decreased stroke volume on day 7, decreased FluoroJade+ cells, and significantly higher numbers of neovascularization in and around the stroke areas compared to that of other groups.

AB - INTRODUCTION: Exosomes from different sources have been used for therapeutic purposes to target stroke and other disorders. However, exosomes from endothelial progenitor cells (EPCs) have not been tested in any stroke model, and in vivo bio-distribution study is lacking. Targeted delivery of IV-administered exosomes has been a significant challenge. Delivery of exosomes to the brain is a daunting task, and a blood-brain barrier (BBB)-penetrable peptide is being considered. However, the next step in practical treatment will be delivering naïve (unmodified) exosomes to the stroke site without destroying host tissues or disrupting BBB, or the membranes of the delivery vehicles. Low-intensity-pulsed focused ultrasound (LIPFUS) is approved for clinical use in the musculoskeletal, transcranial brain, and physiotherapy clinics. The objectives of the proposed studies were to determine whether LIPFUS-mediated increased delivery of EPC-derived exosomes enhances stroke recovery and functional improvement in mice with transient middle cerebral artery occlusion (tMCAo) stroke.METHODS: To enhance exosome delivery to the stroke area, we utilized LIPFUS. We evaluated stroke volume using MRI at different time points and conducted behavioral studies parallel to MRI to determine recovery. Ultimately, we studied brain tissue using immunohistochemistry to assess the extent of stroke and tissue regeneration.RESULTS AND DISCUSSION: In vivo, imaging showed a higher accumulation of EPC exosomes following LIPFUS without any damage to the underlying brain tissues, increased leakage of albumin, or accumulation of CD45+ cells. Groups of mice (14-16 months old) were treated with Vehicle (PBS), LIPFUS only, EPC-exosomes only, and LIPFUS+EPC-exosomes. LIPFUS + EPC exosomes groups showed a significantly decreased stroke volume on day 7, decreased FluoroJade+ cells, and significantly higher numbers of neovascularization in and around the stroke areas compared to that of other groups.

U2 - 10.3389/fneur.2025.1543133

DO - 10.3389/fneur.2025.1543133

M3 - Article

C2 - 40271117

SN - 1664-2295

VL - 16

SP - 1543133

JO - Frontiers in Neurology

JF - Frontiers in Neurology

ER -

Effects of low-intensity pulsed focal ultrasound-mediated delivery of endothelial progenitor-derived exosomes in tMCAo stroke

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